Modeling of Natural Gas Transportation and Distribution in Low Pressure Gas Pipelines

Olga Gnezdilova; Galina Shedrina; Vasily Amelin

doi:10.4028/www.scientific.net/AMM.725-726.1307

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 725-726Modeling of Natural Gas Transportation and...

Modeling of Natural Gas Transportation and Distribution in Low Pressure Gas Pipelines

Abstract:

It is known that the area of the implementation of automated systems for remote control of the technological processes of gas transportation and distribution, as well as its commercial metering and consumption is set for the settlements with population exceeding 100 thousand people. It has a centralized structure, including the lower level − controlled stations, and the upper level − central dispatcher board, which is implemented in the form of automation-equipped workstations connected using computer networks.

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Periodical:

Applied Mechanics and Materials (Volumes 725-726)

Pages:

1307-1312

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.725-726.1307

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Online since:

January 2015

Authors:

Olga Gnezdilova*, Galina Shedrina, Vasily Amelin

Keywords:

Automated Systems, Control System, Gas Transportation, Gas-Regulating System

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References

[1] General provisions for design and construction of gas distribution systems of metal and plastic pipes. JV 42-101-2003. MSO polymerase, 2003, p.165.

Google Scholar

[2] Fundamentals of automatic control and control, Textbook. Allowance for non-electric specialties, Ed. by V. M. Ponomarev, A.P. Litvinov. High school, Moscow, 1974. p.439.

Google Scholar

[3] O.A. Gnezdilova, N.S. Kobelev, A.N. Kobelev, Mathematical model of the system supply of low pressure as energy saving schemes operational management, The news Veronikas, 2009. p.256.

Google Scholar

[4] O.A. Gnezdilova, N.S. Kobelev, The basics of process simulation management of urban systems the supply of medium and high pressure. The news Veronikas, 2009, p.243.

Google Scholar

[5] SP 42-101-2003. General provisions for the design and construction of gas distribution systems of metal and plastic pipes / M. ZAO Polimergaz, 2003, p.165.

Google Scholar

[6] O.A. Gnezdilova, V.F. Stepanov, Control of energy saving in heating systems, heating and hot water / Abstracts XXXIV university scientific conference of students and graduate students in research Youth and XXI Century, Kursk, (2006).

Google Scholar

[7] O.A. Gnezdilova, The main provisions of the calculation of thermal parameters struezakruchivayuschih devices / Materials and strengthening technologies, Collected materials XIV Russian scientific-tehn. conf. with international participation (16-18 October 2007), Kursk (2007).

Google Scholar

[8] O.A. Gnezdilova, Struezavihritelnye devices as devices that improve the effectiveness of accounting controls coolant / Materials and strengthening technologies. Collected materials XIV Russian scientific-tehn. conf. with international participation (16-18 October 2007). Kursk, (2007).

Google Scholar

[9] O.A. Gnezdilova, Improving Accuracy of measurement technology in the production of building materials / Modern problems of technical, science and human knowledge: Proceedings of the scientific-practical conferention. Stary Oskol, (2005).

Google Scholar

[10] O.A. Gnezdilova, N.S. Kobelev, V.F. Stepanov, Some provisions of the vortex processes as the basis for calculating the parameters of devices struezakruchivayuschih heat points / Proceedings of the Kursk State Technical University, №2 (19). Kursk, (2007).

Google Scholar

[11] N.S. Kobelev, O.A. Gnezdilova, N.E. Semicheva, V.A. Lapin, Dynamics of vortex compressor suction mining machine in terms of public works / Proceedings Vibrating machines and technologies,. Kursk, (2008).

Google Scholar

[12] O.A. Gnezdilova, N.S. Kobelev, The value of the instrument for measuring the flow, as well as to improve the energy efficiency of transport coolant / Proceedings of international academic readings Safety Building Fund of Russia. Problems and Solutions. ,. Kursk, (2006).

Google Scholar

[13] N.S. Kobelev, O.A. Gnezdilova, I.S. Zakharov, Patent 2251081 Russian Federation MPK7 G 01 F 1/32, 15/12. Counter-meter / applicant and patentee KurskGTU. - № 2003112072/28; appl. 24. 04. 2003 .; publ. 27. 04. 2005, Bull. Number 12 (II h. ).

Google Scholar

[14] N.S. Kobelev, O.A. Gnezdilova, P.A. Krasnykh, V.D. Evdokimov, Patent 34732 Russian Federation MPK7 G 01 L 11/00. Gauge pressure difference / applicant and patentee KurskGTU. - number 2003122444; appl. 21. 07. 2003 .; publ. 10. 12. 2003, Bull. Number 34.

Google Scholar

[15] Kobelev N.S., O.A. Gnezdilova, G.G. Shchedrin, V.N. Kobelev, O.S. Loktionova, Patent 66, 478 Russian Federation MPK7 F 17 D 1/05. A device for throttling the gas / applicant and patentee KurskGTU. - №2007102345 / 22 stated. 22. 01. 2007 .; publ. 10. 09. 2007, Bull. Number 25.

Google Scholar